/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      https://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.commons.imaging.formats.tiff.write;

import java.awt.image.BufferedImage;
import java.awt.image.ColorModel;
import java.io.IOException;
import java.io.OutputStream;
import java.nio.ByteOrder;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;

import org.apache.commons.imaging.ImagingException;
import org.apache.commons.imaging.PixelDensity;
import org.apache.commons.imaging.common.AbstractBinaryOutputStream;
import org.apache.commons.imaging.common.Allocator;
import org.apache.commons.imaging.common.PackBits;
import org.apache.commons.imaging.common.RationalNumber;
import org.apache.commons.imaging.common.ZlibDeflate;
import org.apache.commons.imaging.formats.tiff.AbstractTiffElement;
import org.apache.commons.imaging.formats.tiff.AbstractTiffImageData;
import org.apache.commons.imaging.formats.tiff.TiffImagingParameters;
import org.apache.commons.imaging.formats.tiff.constants.ExifTagConstants;
import org.apache.commons.imaging.formats.tiff.constants.TiffConstants;
import org.apache.commons.imaging.formats.tiff.constants.TiffDirectoryConstants;
import org.apache.commons.imaging.formats.tiff.constants.TiffTagConstants;
import org.apache.commons.imaging.formats.tiff.itu_t4.T4AndT6Compression;
import org.apache.commons.imaging.mylzw.MyLzwCompressor;

public abstract class AbstractTiffImageWriter {

    private static final int MAX_PIXELS_FOR_RGB = 1024 * 1024;

    protected static int imageDataPaddingLength(final int dataLength) {
        return (4 - dataLength % 4) % 4;
    }

    protected final ByteOrder byteOrder;

    public AbstractTiffImageWriter() {
        this.byteOrder = TiffConstants.DEFAULT_TIFF_BYTE_ORDER;
    }

    public AbstractTiffImageWriter(final ByteOrder byteOrder) {
        this.byteOrder = byteOrder;
    }

    private void applyPredictor(final int width, final int bytesPerSample, final byte[] b) {
        final int nBytesPerRow = bytesPerSample * width;
        final int nRows = b.length / nBytesPerRow;
        for (int iRow = 0; iRow < nRows; iRow++) {
            final int offset = iRow * nBytesPerRow;
            for (int i = nBytesPerRow - 1; i >= bytesPerSample; i--) {
                b[offset + i] -= b[offset + i - bytesPerSample];
            }
        }
    }

    /**
     * Check an image to see if any of its pixels are non-opaque.
     *
     * @param src a valid image
     * @return true if at least one non-opaque pixel is found.
     */
    private boolean checkForActualAlpha(final BufferedImage src) {
        // to conserve memory, very large images may be read
        // in pieces.
        final int width = src.getWidth();
        final int height = src.getHeight();
        int nRowsPerRead = MAX_PIXELS_FOR_RGB / width;
        if (nRowsPerRead < 1) {
            nRowsPerRead = 1;
        }
        final int nReads = (height + nRowsPerRead - 1) / nRowsPerRead;
        final int[] argb = Allocator.intArray(nRowsPerRead * width);
        for (int iRead = 0; iRead < nReads; iRead++) {
            final int i0 = iRead * nRowsPerRead;
            final int i1 = i0 + nRowsPerRead > height ? height : i0 + nRowsPerRead;
            src.getRGB(0, i0, width, i1 - i0, argb, 0, width);
            final int n = (i1 - i0) * width;
            for (int i = 0; i < n; i++) {
                if ((argb[i] & 0xff000000) != 0xff000000) {
                    return true;
                }
            }
        }
        return false;
    }

    private void combineUserExifIntoFinalExif(final TiffOutputSet userExif, final TiffOutputSet outputSet) throws ImagingException {
        final List<TiffOutputDirectory> outputDirectories = outputSet.getDirectories();
        outputDirectories.sort(TiffOutputDirectory.COMPARATOR);
        for (final TiffOutputDirectory userDirectory : userExif.getDirectories()) {
            final int location = Collections.binarySearch(outputDirectories, userDirectory, TiffOutputDirectory.COMPARATOR);
            if (location < 0) {
                outputSet.addDirectory(userDirectory);
            } else {
                final TiffOutputDirectory outputDirectory = outputDirectories.get(location);
                for (final TiffOutputField userField : userDirectory) {
                    if (outputDirectory.findField(userField.tagInfo) == null) {
                        outputDirectory.add(userField);
                    }
                }
            }
        }
    }

    private byte[][] getStrips(final BufferedImage src, final int samplesPerPixel, final int bitsPerSample, final int rowsPerStrip) {
        final int width = src.getWidth();
        final int height = src.getHeight();

        final int stripCount = (height + rowsPerStrip - 1) / rowsPerStrip;

        // Write Strips
        final byte[][] result = new byte[Allocator.check(stripCount)][];

        int remainingRows = height;

        for (int i = 0; i < stripCount; i++) {
            final int rowsInStrip = Math.min(rowsPerStrip, remainingRows);
            remainingRows -= rowsInStrip;

            final int bitsInRow = bitsPerSample * samplesPerPixel * width;
            final int bytesPerRow = (bitsInRow + 7) / 8;
            final int bytesInStrip = rowsInStrip * bytesPerRow;

            final byte[] uncompressed = Allocator.byteArray(bytesInStrip);

            int counter = 0;
            int y = i * rowsPerStrip;
            final int stop = i * rowsPerStrip + rowsPerStrip;

            for (; y < height && y < stop; y++) {
                int bitCache = 0;
                int bitsInCache = 0;
                for (int x = 0; x < width; x++) {
                    final int rgb = src.getRGB(x, y);
                    final int red = 0xff & rgb >> 16;
                    final int green = 0xff & rgb >> 8;
                    final int blue = 0xff & rgb >> 0;

                    if (bitsPerSample == 1) {
                        int sample = (red + green + blue) / 3;
                        if (sample > 127) {
                            sample = 0;
                        } else {
                            sample = 1;
                        }
                        bitCache <<= 1;
                        bitCache |= sample;
                        bitsInCache++;
                        if (bitsInCache == 8) {
                            uncompressed[counter++] = (byte) bitCache;
                            bitCache = 0;
                            bitsInCache = 0;
                        }
                    } else if (samplesPerPixel == 4) {
                        uncompressed[counter++] = (byte) red;
                        uncompressed[counter++] = (byte) green;
                        uncompressed[counter++] = (byte) blue;
                        uncompressed[counter++] = (byte) (rgb >> 24);
                    } else {
                        // samples per pixel is 3
                        uncompressed[counter++] = (byte) red;
                        uncompressed[counter++] = (byte) green;
                        uncompressed[counter++] = (byte) blue;
                    }
                }
                if (bitsInCache > 0) {
                    bitCache <<= 8 - bitsInCache;
                    uncompressed[counter++] = (byte) bitCache;
                }
            }

            result[i] = uncompressed;
        }

        return result;
    }

    protected TiffOutputSummary validateDirectories(final TiffOutputSet outputSet) throws ImagingException {
        if (outputSet.isEmpty()) {
            throw new ImagingException("No directories.");
        }

        TiffOutputDirectory exifDirectory = null;
        TiffOutputDirectory gpsDirectory = null;
        TiffOutputDirectory interoperabilityDirectory = null;
        TiffOutputField exifDirectoryOffsetField = null;
        TiffOutputField gpsDirectoryOffsetField = null;
        TiffOutputField interoperabilityDirectoryOffsetField = null;

        final List<Integer> directoryIndices = new ArrayList<>();
        final Map<Integer, TiffOutputDirectory> directoryTypeMap = new HashMap<>();
        for (final TiffOutputDirectory directory : outputSet) {
            final int dirType = directory.getType();
            directoryTypeMap.put(dirType, directory);
            // Debug.debug("validating dirType", dirType + " ("
            // + directory.getFields().size() + " fields)");

            if (dirType < 0) {
                switch (dirType) {
                case TiffDirectoryConstants.DIRECTORY_TYPE_EXIF:
                    if (exifDirectory != null) {
                        throw new ImagingException("More than one EXIF directory.");
                    }
                    exifDirectory = directory;
                    break;

                case TiffDirectoryConstants.DIRECTORY_TYPE_GPS:
                    if (gpsDirectory != null) {
                        throw new ImagingException("More than one GPS directory.");
                    }
                    gpsDirectory = directory;
                    break;

                case TiffDirectoryConstants.DIRECTORY_TYPE_INTEROPERABILITY:
                    if (interoperabilityDirectory != null) {
                        throw new ImagingException("More than one Interoperability directory.");
                    }
                    interoperabilityDirectory = directory;
                    break;
                default:
                    throw new ImagingException("Unknown directory: " + dirType);
                }
            } else {
                if (directoryIndices.contains(dirType)) {
                    throw new ImagingException("More than one directory with index: " + dirType + ".");
                }
                directoryIndices.add(dirType);
                // dirMap.put(arg0, arg1)
            }

            final HashSet<Integer> fieldTags = new HashSet<>();
            for (final TiffOutputField field : directory) {
                if (fieldTags.contains(field.tag)) {
                    throw new ImagingException("Tag (" + field.tagInfo.getDescription() + ") appears twice in directory.");
                }
                fieldTags.add(field.tag);

                if (field.tag == ExifTagConstants.EXIF_TAG_EXIF_OFFSET.tag) {
                    if (exifDirectoryOffsetField != null) {
                        throw new ImagingException("More than one Exif directory offset field.");
                    }
                    exifDirectoryOffsetField = field;
                } else if (field.tag == ExifTagConstants.EXIF_TAG_INTEROP_OFFSET.tag) {
                    if (interoperabilityDirectoryOffsetField != null) {
                        throw new ImagingException("More than one Interoperability directory offset field.");
                    }
                    interoperabilityDirectoryOffsetField = field;
                } else if (field.tag == ExifTagConstants.EXIF_TAG_GPSINFO.tag) {
                    if (gpsDirectoryOffsetField != null) {
                        throw new ImagingException("More than one GPS directory offset field.");
                    }
                    gpsDirectoryOffsetField = field;
                }
            }
            // directory.
        }

        if (directoryIndices.isEmpty()) {
            throw new ImagingException("Missing root directory.");
        }

        // "normal" TIFF directories should have continous indices starting with
        // 0, ie. 0, 1, 2...
        Collections.sort(directoryIndices);

        TiffOutputDirectory previousDirectory = null;
        for (int i = 0; i < directoryIndices.size(); i++) {
            final Integer index = directoryIndices.get(i);
            if (index != i) {
                throw new ImagingException("Missing directory: " + i + ".");
            }

            // set up chain of directory references for "normal" directories.
            final TiffOutputDirectory directory = directoryTypeMap.get(index);
            if (null != previousDirectory) {
                previousDirectory.setNextDirectory(directory);
            }
            previousDirectory = directory;
        }

        final TiffOutputDirectory rootDirectory = directoryTypeMap.get(TiffDirectoryConstants.DIRECTORY_TYPE_ROOT);

        // prepare results
        final TiffOutputSummary result = new TiffOutputSummary(byteOrder, rootDirectory, directoryTypeMap);

        if (interoperabilityDirectory == null && interoperabilityDirectoryOffsetField != null) {
            // perhaps we should just discard field?
            throw new ImagingException("Output set has Interoperability Directory Offset field, but no Interoperability Directory");
        }
        if (interoperabilityDirectory != null) {
            if (exifDirectory == null) {
                exifDirectory = outputSet.addExifDirectory();
            }

            if (interoperabilityDirectoryOffsetField == null) {
                interoperabilityDirectoryOffsetField = TiffOutputField.createOffsetField(ExifTagConstants.EXIF_TAG_INTEROP_OFFSET, byteOrder);
                exifDirectory.add(interoperabilityDirectoryOffsetField);
            }

            result.add(interoperabilityDirectory, interoperabilityDirectoryOffsetField);
        }

        // make sure offset fields and offset'd directories correspond.
        if (exifDirectory == null && exifDirectoryOffsetField != null) {
            // perhaps we should just discard field?
            throw new ImagingException("Output set has Exif Directory Offset field, but no Exif Directory");
        }
        if (exifDirectory != null) {
            if (exifDirectoryOffsetField == null) {
                exifDirectoryOffsetField = TiffOutputField.createOffsetField(ExifTagConstants.EXIF_TAG_EXIF_OFFSET, byteOrder);
                rootDirectory.add(exifDirectoryOffsetField);
            }

            result.add(exifDirectory, exifDirectoryOffsetField);
        }

        if (gpsDirectory == null && gpsDirectoryOffsetField != null) {
            // perhaps we should just discard field?
            throw new ImagingException("Output set has GPS Directory Offset field, but no GPS Directory");
        }
        if (gpsDirectory != null) {
            if (gpsDirectoryOffsetField == null) {
                gpsDirectoryOffsetField = TiffOutputField.createOffsetField(ExifTagConstants.EXIF_TAG_GPSINFO, byteOrder);
                rootDirectory.add(gpsDirectoryOffsetField);
            }

            result.add(gpsDirectory, gpsDirectoryOffsetField);
        }

        return result;

        // Debug.debug();
    }

    public abstract void write(OutputStream os, TiffOutputSet outputSet) throws IOException, ImagingException;

    public void writeImage(final BufferedImage src, final OutputStream os, final TiffImagingParameters params) throws ImagingException, IOException {
        final TiffOutputSet userExif = params.getOutputSet();

        final String xmpXml = params.getXmpXml();

        PixelDensity pixelDensity = params.getPixelDensity();
        if (pixelDensity == null) {
            pixelDensity = PixelDensity.createFromPixelsPerInch(72, 72);
        }

        final int width = src.getWidth();
        final int height = src.getHeight();

        // If the source image has a color model that supports alpha,
        // this module performs a call to checkForActualAlpha() to see whether
        // the image that was supplied to the API actually contains
        // non-opaque data in its alpha channel. It is common for applications
        // to create a BufferedImage using TYPE_INT_ARGB, and fill the entire
        // image with opaque pixels. In such a case, the file size of the output
        // can be reduced by 25 percent by storing the image in an 3-byte RGB
        // format. This approach will also make a small reduction in the runtime
        // to read the resulting file when it is accessed by an application.
        final ColorModel cModel = src.getColorModel();
        final boolean hasAlpha = cModel.hasAlpha() && checkForActualAlpha(src);

        // 10/2020: In the case of an image with pre-multiplied alpha
        // (what the TIFF specification calls "associated alpha"), the
        // Java getRGB method adjusts the value to a non-premultiplied
        // alpha state. However, this class could access the pre-multiplied
        // alpha data by obtaining the underlying raster. At this time,
        // the value of such a little-used feature does not seem
        // commensurate with the complexity of the extra code it would require.

        int compression = TiffConstants.COMPRESSION_LZW;
        short predictor = TiffTagConstants.PREDICTOR_VALUE_NONE;

        int stripSizeInBits = 64000; // the default from legacy implementation
        final Integer compressionParameter = params.getCompression();
        if (compressionParameter != null) {
            compression = compressionParameter;
            final Integer stripSizeInBytes = params.getLzwCompressionBlockSize();
            if (stripSizeInBytes != null) {
                if (stripSizeInBytes < 8000) {
                    throw new ImagingException("Block size parameter " + stripSizeInBytes + " is less than 8000 minimum");
                }
                stripSizeInBits = stripSizeInBytes * 8;
            }
        }

        final int samplesPerPixel;
        final int bitsPerSample;
        final int photometricInterpretation;
        if (compression == TiffConstants.COMPRESSION_CCITT_1D || compression == TiffConstants.COMPRESSION_CCITT_GROUP_3
                || compression == TiffConstants.COMPRESSION_CCITT_GROUP_4) {
            samplesPerPixel = 1;
            bitsPerSample = 1;
            photometricInterpretation = 0;
        } else {
            samplesPerPixel = hasAlpha ? 4 : 3;
            bitsPerSample = 8;
            photometricInterpretation = 2;
        }

        int rowsPerStrip = stripSizeInBits / (width * bitsPerSample * samplesPerPixel);
        rowsPerStrip = Math.max(1, rowsPerStrip); // must have at least one.

        final byte[][] strips = getStrips(src, samplesPerPixel, bitsPerSample, rowsPerStrip);

        // System.out.println("width: " + width);
        // System.out.println("height: " + height);
        // System.out.println("fRowsPerStrip: " + fRowsPerStrip);
        // System.out.println("fSamplesPerPixel: " + fSamplesPerPixel);
        // System.out.println("stripCount: " + stripCount);

        int t4Options = 0;
        int t6Options = 0;
        switch (compression) {
        case TiffConstants.COMPRESSION_CCITT_1D:
            for (int i = 0; i < strips.length; i++) {
                strips[i] = T4AndT6Compression.compressModifiedHuffman(strips[i], width, strips[i].length / ((width + 7) / 8));
            }
            break;
        case TiffConstants.COMPRESSION_CCITT_GROUP_3: {
            final Integer t4Parameter = params.getT4Options();
            if (t4Parameter != null) {
                t4Options = t4Parameter.intValue();
            }
            t4Options &= 0x7;
            final boolean is2D = (t4Options & 1) != 0;
            final boolean usesUncompressedMode = (t4Options & 2) != 0;
            if (usesUncompressedMode) {
                throw new ImagingException("T.4 compression with the uncompressed mode extension is not yet supported");
            }
            final boolean hasFillBitsBeforeEOL = (t4Options & 4) != 0;
            for (int i = 0; i < strips.length; i++) {
                if (is2D) {
                    strips[i] = T4AndT6Compression.compressT4_2D(strips[i], width, strips[i].length / ((width + 7) / 8), hasFillBitsBeforeEOL, rowsPerStrip);
                } else {
                    strips[i] = T4AndT6Compression.compressT4_1D(strips[i], width, strips[i].length / ((width + 7) / 8), hasFillBitsBeforeEOL);
                }
            }
            break;
        }
        case TiffConstants.COMPRESSION_CCITT_GROUP_4: {
            final Integer t6Parameter = params.getT6Options();
            if (t6Parameter != null) {
                t6Options = t6Parameter.intValue();
            }
            t6Options &= 0x4;
            final boolean usesUncompressedMode = (t6Options & TiffConstants.FLAG_T6_OPTIONS_UNCOMPRESSED_MODE) != 0;
            if (usesUncompressedMode) {
                throw new ImagingException("T.6 compression with the uncompressed mode extension is not yet supported");
            }
            for (int i = 0; i < strips.length; i++) {
                strips[i] = T4AndT6Compression.compressT6(strips[i], width, strips[i].length / ((width + 7) / 8));
            }
            break;
        }
        case TiffConstants.COMPRESSION_PACKBITS:
            for (int i = 0; i < strips.length; i++) {
                strips[i] = PackBits.compress(strips[i]);
            }
            break;
        case TiffConstants.COMPRESSION_LZW:
            predictor = TiffTagConstants.PREDICTOR_VALUE_HORIZONTAL_DIFFERENCING;
            for (int i = 0; i < strips.length; i++) {
                final byte[] uncompressed = strips[i];
                applyPredictor(width, samplesPerPixel, strips[i]);

                final int LZW_MINIMUM_CODE_SIZE = 8;
                final MyLzwCompressor compressor = new MyLzwCompressor(LZW_MINIMUM_CODE_SIZE, ByteOrder.BIG_ENDIAN, true);
                final byte[] compressed = compressor.compress(uncompressed);
                strips[i] = compressed;
            }
            break;
        case TiffConstants.COMPRESSION_DEFLATE_ADOBE:
            predictor = TiffTagConstants.PREDICTOR_VALUE_HORIZONTAL_DIFFERENCING;
            for (int i = 0; i < strips.length; i++) {
                applyPredictor(width, samplesPerPixel, strips[i]);
                strips[i] = ZlibDeflate.compress(strips[i]);
            }
            break;
        case TiffConstants.COMPRESSION_UNCOMPRESSED:
            break;
        default:
            throw new ImagingException(
                    "Invalid compression parameter (Only CCITT 1D/Group 3/Group 4, LZW, Packbits, Zlib Deflate and uncompressed supported).");
        }

        final AbstractTiffElement.DataElement[] imageData = new AbstractTiffElement.DataElement[strips.length];
        Arrays.setAll(imageData, i -> new AbstractTiffImageData.Data(0, strips[i].length, strips[i]));

        final TiffOutputSet outputSet = new TiffOutputSet(byteOrder);
        final TiffOutputDirectory directory = outputSet.addRootDirectory();

        // WriteField stripOffsetsField;

        directory.add(TiffTagConstants.TIFF_TAG_IMAGE_WIDTH, width);
        directory.add(TiffTagConstants.TIFF_TAG_IMAGE_LENGTH, height);
        directory.add(TiffTagConstants.TIFF_TAG_PHOTOMETRIC_INTERPRETATION, (short) photometricInterpretation);
        directory.add(TiffTagConstants.TIFF_TAG_COMPRESSION, (short) compression);
        directory.add(TiffTagConstants.TIFF_TAG_SAMPLES_PER_PIXEL, (short) samplesPerPixel);

        switch (samplesPerPixel) {
        case 3:
            directory.add(TiffTagConstants.TIFF_TAG_BITS_PER_SAMPLE, (short) bitsPerSample, (short) bitsPerSample, (short) bitsPerSample);
            break;
        case 4:
            directory.add(TiffTagConstants.TIFF_TAG_BITS_PER_SAMPLE, (short) bitsPerSample, (short) bitsPerSample, (short) bitsPerSample,
                    (short) bitsPerSample);
            directory.add(TiffTagConstants.TIFF_TAG_EXTRA_SAMPLES, (short) TiffTagConstants.EXTRA_SAMPLE_UNASSOCIATED_ALPHA);
            break;
        case 1:
            directory.add(TiffTagConstants.TIFF_TAG_BITS_PER_SAMPLE, (short) bitsPerSample);
            break;
        default:
            break;
        }
        // {
        // stripOffsetsField = new WriteField(TIFF_TAG_STRIP_OFFSETS,
        // FIELD_TYPE_LONG, stripOffsets.length, FIELD_TYPE_LONG
        // .writeData(stripOffsets, byteOrder));
        // directory.add(stripOffsetsField);
        // }
        // {
        // WriteField field = new WriteField(TIFF_TAG_STRIP_BYTE_COUNTS,
        // FIELD_TYPE_LONG, stripByteCounts.length,
        // FIELD_TYPE_LONG.writeData(stripByteCounts,
        // WRITE_BYTE_ORDER));
        // directory.add(field);
        // }
        directory.add(TiffTagConstants.TIFF_TAG_ROWS_PER_STRIP, rowsPerStrip);
        if (pixelDensity.isUnitless()) {
            directory.add(TiffTagConstants.TIFF_TAG_RESOLUTION_UNIT, (short) 0);
            directory.add(TiffTagConstants.TIFF_TAG_XRESOLUTION, RationalNumber.valueOf(pixelDensity.getRawHorizontalDensity()));
            directory.add(TiffTagConstants.TIFF_TAG_YRESOLUTION, RationalNumber.valueOf(pixelDensity.getRawVerticalDensity()));
        } else if (pixelDensity.isInInches()) {
            directory.add(TiffTagConstants.TIFF_TAG_RESOLUTION_UNIT, (short) 2);
            directory.add(TiffTagConstants.TIFF_TAG_XRESOLUTION, RationalNumber.valueOf(pixelDensity.horizontalDensityInches()));
            directory.add(TiffTagConstants.TIFF_TAG_YRESOLUTION, RationalNumber.valueOf(pixelDensity.verticalDensityInches()));
        } else {
            directory.add(TiffTagConstants.TIFF_TAG_RESOLUTION_UNIT, (short) 1);
            directory.add(TiffTagConstants.TIFF_TAG_XRESOLUTION, RationalNumber.valueOf(pixelDensity.horizontalDensityCentimetres()));
            directory.add(TiffTagConstants.TIFF_TAG_YRESOLUTION, RationalNumber.valueOf(pixelDensity.verticalDensityCentimetres()));
        }
        if (t4Options != 0) {
            directory.add(TiffTagConstants.TIFF_TAG_T4_OPTIONS, t4Options);
        }
        if (t6Options != 0) {
            directory.add(TiffTagConstants.TIFF_TAG_T6_OPTIONS, t6Options);
        }

        if (null != xmpXml) {
            final byte[] xmpXmlBytes = xmpXml.getBytes(StandardCharsets.UTF_8);
            directory.add(TiffTagConstants.TIFF_TAG_XMP, xmpXmlBytes);
        }

        if (predictor == TiffTagConstants.PREDICTOR_VALUE_HORIZONTAL_DIFFERENCING) {
            directory.add(TiffTagConstants.TIFF_TAG_PREDICTOR, predictor);
        }

        final AbstractTiffImageData abstractTiffImageData = new AbstractTiffImageData.Strips(imageData, rowsPerStrip);
        directory.setTiffImageData(abstractTiffImageData);

        if (userExif != null) {
            combineUserExifIntoFinalExif(userExif, outputSet);
        }

        write(os, outputSet);
    }

    protected void writeImageFileHeader(final AbstractBinaryOutputStream bos) throws IOException {
        writeImageFileHeader(bos, TiffConstants.HEADER_SIZE);
    }

    protected void writeImageFileHeader(final AbstractBinaryOutputStream bos, final long offsetToFirstIFD) throws IOException {
        if (byteOrder == ByteOrder.LITTLE_ENDIAN) {
            bos.write('I');
            bos.write('I');
        } else {
            bos.write('M');
            bos.write('M');
        }

        bos.write2Bytes(42); // tiffVersion

        bos.write4Bytes((int) offsetToFirstIFD);
    }

}
